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W3083957573 startingPage "107671" @default.
W3083957573 abstract "An advanced molecularly imprinted electrochemical sensor with high sensitivity and selectivity for the detection of Human immunoglobulin G (IgG) was successfully constructed. With acrylamide imprinting systems, surface imprinting on the nanoparticles CuFe2O4 targeted at IgG was employed to prepare molecularly imprinted polymer, which served as recognition element for the electrochemical sensor. Furthermore, the sensor harnessed a molybdenum disulfide (MoS2)@nitrogen doped graphene quantum dots (N-GQDs) with ionic liquid (IL) nanocomposite for signal amplification. Under optimized experimental conditions, the sensor shortened the response time to less than 8 min, and the response was linear at the IgG concentration of 0.1–50 ng·mL−1 with a low detection limit of 0.02 ng·mL−1 (S/N = 3). Our findings suggested that, the sensor exhibited high detectability and long-time stability. The satisfactory results of human serum sample analysis showed that the developed IgG sensor had promising potential clinical applications in detecting IgG content." @default.
W3083957573 created "2020-09-14" @default.
W3083957573 creator A5012126394 @default.
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W3083957573 creator A5049989743 @default.
W3083957573 creator A5064088972 @default.
W3083957573 creator A5065946747 @default.
W3083957573 date "2021-02-01" @default.
W3083957573 modified "2023-09-27" @default.
W3083957573 title "An advanced molecularly imprinted electrochemical sensor for the highly sensitive and selective detection and determination of Human IgG" @default.
W3083957573 cites W1873077367 @default.
W3083957573 cites W1974930828 @default.
W3083957573 cites W1979622052 @default.
W3083957573 cites W1982139388 @default.
W3083957573 cites W1983321129 @default.
W3083957573 cites W1983988757 @default.
W3083957573 cites W1984279996 @default.
W3083957573 cites W1988759097 @default.
W3083957573 cites W1991420172 @default.
W3083957573 cites W1992465960 @default.
W3083957573 cites W1994887061 @default.
W3083957573 cites W1997110841 @default.
W3083957573 cites W2002831733 @default.
W3083957573 cites W2017942499 @default.
W3083957573 cites W2018771924 @default.
W3083957573 cites W2021880533 @default.
W3083957573 cites W2033222042 @default.
W3083957573 cites W2045246184 @default.
W3083957573 cites W2048487231 @default.
W3083957573 cites W2050045302 @default.
W3083957573 cites W2063897635 @default.
W3083957573 cites W2065197967 @default.
W3083957573 cites W2067568050 @default.
W3083957573 cites W2076454053 @default.
W3083957573 cites W2083279368 @default.
W3083957573 cites W2083626710 @default.
W3083957573 cites W2130660680 @default.
W3083957573 cites W2150981677 @default.
W3083957573 cites W2151167522 @default.
W3083957573 cites W2167658638 @default.
W3083957573 cites W2171273866 @default.
W3083957573 cites W2256919945 @default.
W3083957573 cites W2323724548 @default.
W3083957573 cites W2335587473 @default.
W3083957573 cites W2442433970 @default.
W3083957573 cites W2523232993 @default.
W3083957573 cites W2529868311 @default.
W3083957573 cites W2551006088 @default.
W3083957573 cites W2564694987 @default.
W3083957573 cites W2580646348 @default.
W3083957573 cites W2591389634 @default.
W3083957573 cites W2604368673 @default.
W3083957573 cites W2614000815 @default.
W3083957573 cites W2740870343 @default.
W3083957573 cites W2752418839 @default.
W3083957573 cites W2760965040 @default.
W3083957573 cites W2772325432 @default.
W3083957573 cites W2774484312 @default.
W3083957573 cites W2782896133 @default.
W3083957573 cites W2789654676 @default.
W3083957573 cites W2792769427 @default.
W3083957573 cites W2795348510 @default.
W3083957573 cites W2799504922 @default.
W3083957573 cites W2799584838 @default.
W3083957573 cites W2801643369 @default.
W3083957573 cites W2806197774 @default.
W3083957573 cites W2886639378 @default.
W3083957573 cites W2889762039 @default.
W3083957573 cites W2901378171 @default.
W3083957573 cites W2904987525 @default.
W3083957573 cites W2910099232 @default.
W3083957573 cites W2911830668 @default.
W3083957573 cites W2918043224 @default.
W3083957573 cites W2922215395 @default.
W3083957573 cites W2942113655 @default.
W3083957573 cites W2952510034 @default.
W3083957573 cites W2964589056 @default.
W3083957573 cites W2968130609 @default.
W3083957573 cites W2972068516 @default.
W3083957573 cites W2972350467 @default.
W3083957573 cites W2974069617 @default.
W3083957573 cites W2989510985 @default.
W3083957573 cites W2994999530 @default.
W3083957573 cites W3009812249 @default.
W3083957573 cites W3011839959 @default.
W3083957573 cites W3023453168 @default.
W3083957573 doi "https://doi.org/10.1016/j.bioelechem.2020.107671" @default.
W3083957573 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7480476" @default.
W3083957573 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32950847" @default.
W3083957573 hasPublicationYear "2021" @default.
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